Research on Damage Assessment of Buried Standard and Carbon‐Fibre‐Reinforced Polymer Petroleum Pipeline Subjected to Shallow Buried Blast Loading in Soil

Abstract: Buried petroleum pipelines may encounter threats from blast loading due to terrorist attacks, accidental explosions, and artificial blasting during in-progress construction. Carbon-fibre-reinforced polymer (CFRP) is often used for the repair and reinforcement of buried petroleum pipelines. It is meaningful and necessary to distinguish the different responses and establish an effective damage assessment method for standard petroleum pipelines and CFRP-supported petroleum pipelines buried in soil under blast loa… Show more

“…Among them, the steel structure pipeline accident probability accounts for 70% (8), polyethylene pipeline accounts for 5.6%, and other types of pipeline account for 24.4% (17). Some scholars believe that the safety of polyethylene pipelines is high, but if it is laid for a long distance (18)(19)(20)(21) or used for a long time, the polyethylene pipeline will have cracks, leaks, and other problems (22,23). Moreover, the toughness and adhesion of the polyethylene pipeline itself will lead to cracks and other damages that are not easily detected (24,25) and cannot even be identified by x-rays.…”

Method for Assessing Damage to Gas Distribution Network Pipelines based on Nonlinear Guided Wave

“…Among them, the steel structure pipeline accident probability accounts for 70% (8), polyethylene pipeline accounts for 5.6%, and other types of pipeline account for 24.4% (17). Some scholars believe that the safety of polyethylene pipelines is high, but if it is laid for a long distance (18)(19)(20)(21) or used for a long time, the polyethylene pipeline will have cracks, leaks, and other problems (22,23). Moreover, the toughness and adhesion of the polyethylene pipeline itself will lead to cracks and other damages that are not easily detected (24,25) and cannot even be identified by x-rays.…”

Method for Assessing Damage to Gas Distribution Network Pipelines based on Nonlinear Guided Wave

Development of multi-band tuned rail damper for rail vibration control